KR102118569B1 - Decontamination Frame for Bioshield Constructure - Google Patents

Abstract

According to the present invention, a frame for decontamination to perform decontamination work on an inner circumferential surface (1) of a bioshield concrete structure with an opened upper portion comprises: a vertical frame (100) formed in a longitudinal direction (a) of the inner circumferential surface (1), and provided with a cutting unit (700) loaded thereon to perform cutting work on the inner circumferential surface (1); a horizontal frame (200) coupled to an upper portion of the vertical frame (100); and a guide rail (300) formed along a cylindrical surface (2) of the upper opened portion of the bioshield concrete structure to guide a movement of the horizontal frame (200). The cutting unit (700) includes: a rotary drum (720) having a cutter (721) mounted thereon; a driveshaft (730) to supply torque to the rotary drum (720); and a housing (710) storing the rotary drum (720) and the driveshaft (730). According to the present invention, cut fragments are easily collected.

Description

Decontamination frame for bio-shield concrete using desorption cutting part and method for decontamination of bio-shield concrete using the same {Decontamination Frame for Bioshield Constructure}

The present invention relates to a frame for decontamination of a nuclear power plant bio-shield concrete structure. More specifically, a frame for decontamination of a nuclear power plant bio-shield concrete structure equipped with a suction-type cutting unit installed in a bio-shield structure to cut the surface of the spun concrete structure and to dispose or recycle it, and a method for decontaminating bio-shield concrete using the same It is about.

Within 2030, 12 out of 20 domestic nuclear power plants have reached the design life. However, there is no experience in dismantling commercial nuclear power plants in Korea, so it is necessary to develop related technologies.

In particular, the cost of dismantling is expected to be high at 10% of the cost of construction, so you need to find a way to save. In addition, it is necessary to secure the safety and ease of dismantling work.

In order to reduce the disposal cost of radioactive concrete, which occupies a large proportion of foreign countries, research is being conducted on how to reduce the amount of radioactive waste, and domestic self-disposal measures have been discussed.

The types of radioactive waste generated when dismantling a nuclear power plant are largely divided into metal waste and concrete waste. Compared to metal waste, concrete waste has to be reused and recycled, so research is needed. In particular, among the concrete wastes, the bioshield having the highest radioactivity level is different from other concrete structures, and there is no research on the technology to dismantle it.

A list of prior art related to the decommissioning technology of a conventional nuclear power plant is as follows. -Korean Registered Patent 10-1135297 -Korean Registered Patent 10-1507526 -Republic of Korea Patent Publication 10-2018-0072224 -Korean Registered Patent 10-1645245

The present invention was devised to solve the problem of dismantling of the above-mentioned conventional bio-shield concrete structure, and the object of the present invention is a nuclear power plant bio-shield provided with a suction-type cutting part suitable for structural characteristics of a nuclear power plant bio-shield concrete structure having a recessed structure. It is to provide a decontamination frame for a concrete structure and a method for decontaminating bio-shield concrete using the same.

Another object of the present invention is to provide a frame for decontamination of a nuclear power plant bio-shield concrete structure equipped with a suction-type cutting unit capable of ensuring ease of operation and safety, and a method for decontaminating bio-shield concrete using the same.

Another object of the present invention is to provide a decontamination frame of a nuclear power plant bio-shield concrete structure equipped with a suction-type cutting unit that is easy to install and dismantle, and a method for decontaminating bio-shield concrete using the same.

Another object of the present invention is to provide a frame for decontamination of a nuclear power plant bio-shield concrete structure equipped with a suction-type cutting unit capable of shortening dismantling air and a method for decontaminating bio-shield concrete using the same.

Another object of the present invention is to provide a decontamination frame for a nuclear power plant bio-shield concrete structure equipped with a suction-type cutting unit capable of safely collecting fragments of a cut bio-shield concrete structure, and a method for decontaminating bio-shield concrete using the same.

According to an aspect of the present invention, in the decontamination frame for performing the decontamination operation on the inner circumferential surface 1 of the bio-shielded concrete structure with an open top, it is formed along the depth direction (a) of the inner circumferential surface 1, A vertical frame 100 on which a cutting unit 700 for cutting the inner peripheral surface 1 is mounted; A horizontal frame 200 combined with the upper portion of the vertical frame 100; And a guide rail 300 formed along the main surface portion 2 of the upper opening portion of the bio-shield concrete structure to guide the movement of the horizontal frame 200, wherein the cutting portion 700 includes a cutter 721. ) Mounted rotary drum 720; A driving shaft 730 providing rotational force to the rotating drum 720; And a housing 710 in which the rotating drum 720 and the driving shaft 730 are housed.

In this case, the housing 710 includes an inlet 740 through which fragments of the bio-shield structure cut by the cutter 721 are introduced; And a discharge port 750 through which the debris introduced through the inlet port 740 is discharged to the outside.

In addition, it may be a frame for decontamination, characterized in that it further comprises a; dust collector 600 that is connected to the outlet 750 and collects the debris.

In addition, it may be a frame for decontamination characterized in that it further comprises; a horizontal moving part 410 for adjusting the distance between the vertical frame 100 and the inner peripheral surface (1).

In addition, it may be a frame for decontamination characterized in that it further comprises a; vertical movement unit 420 for moving the cutting unit 700 up and down along the depth direction (a).

In addition, it may be a frame for decontamination characterized in that it further comprises; a guide rail moving part 430 for moving the horizontal frame 200 along the guide rail 300.

In addition, the horizontal moving part 410 may be a decontamination frame characterized in that it comprises; a horizontal moving motor 411 to move the horizontal frame 200 forward or backward.

In addition, the guide rail 300 includes a first guide rail 320 coupled to a guide moving motor 310 that moves the horizontal frame 200 along the main surface portion 2; And a second guide rail 330 formed on both sides of the first guide rail 320 and limiting the movement of the horizontal frame 200.

In addition, the horizontal moving part 410 includes a first plate 412 coupled with the second guide rail 330; And a second plate 413 coupled to the horizontal moving motor 411 and coupled to the horizontal frame 200, wherein the first plate 412 and the second plate 413 are slidingly driven. It may be a frame for decontamination, characterized in that.

In addition, it is formed on the bottom of the vertical frame 100, it may be a frame for decontamination characterized in that it further comprises; a moving wheel 500 in contact with the bottom 3 of the bio-shield concrete structure.

According to another aspect of the present invention, a method for decontaminating bio-shield concrete using a decontamination frame, the first step of forming the guide rail 300 on the main surface portion 2 of the bio-shield concrete (S100); A second step of coupling the horizontal frame 200 to the guide rail 300 (S200); A third step of moving the cutting part 700 using the vertical moving part 420 and cutting the inner circumferential surface 1 of the bio-shield concrete structure using the cutting part 700 (S300); A method for decontamination of bio-shield concrete using a decontamination frame is provided.

After the third step (S300), the fourth step (S400) for moving the position of the horizontal frame 200 by using the guide rail moving part 430; further includes, but the fourth step After (S400) it may be a method of decontamination of bio-shield concrete using a decontamination frame, characterized in that the third step (S300) is repeated.

In addition, the bio-shield concrete structure is recessed into a multi-stage structure, and the first step (S100) is to install the guide rail 300 on the plurality of main surfaces 2 of the multi-stage bio-shield concrete. It may be a method of decontamination of bio-shield concrete using a decontamination frame, characterized in that it comprises a.

The decontamination frame according to the present invention has an effect of being easy to install and dismantle according to the structural characteristics of a nuclear power plant bio-shield concrete structure having a depressed structure.

The decontamination frame according to the present invention has an effect of ensuring ease of operation and safety.

When using the decontamination frame according to the present invention, there is an effect that can shorten the air of the nuclear power plant dismantling work.

The decontamination frame according to the present invention has an effect of easily collecting the cut debris and disposing and recycling the entire amount.

1 is a perspective view of a cutting unit showing a state in which the decontamination frame according to the present invention is installed in a bio-shield structure.
Figure 2 is a side view of the decontamination frame according to the present invention.
3 is a plan view of the decontamination frame according to the present invention installed in a bio-shield structure.
Figure 4 is a side view of the decontamination frame according to the invention installed in the bio-shield structure.
5 is a side perspective view of a decontamination frame according to the present invention installed in a bio shield structure.
Figure 6 is a constant detailed view of the decontamination frame according to the present invention installed in a bio-shield structure.
Figure 7 is a side view of the decontamination frame according to the present invention bio-shield structure.
8 and 9 are views showing a process of moving the decontamination frame in a multi-stage bio-shield structure according to the present invention.
10 is a cross-sectional view of a bio-shield concrete structure.
11 to 15 is a view showing the configuration of the cutting unit according to the present invention.

An embodiment of a decontamination frame of a nuclear power plant bio-shield concrete structure and a method for decontaminating bio-shield concrete using the suction-type cutting unit according to the present invention will be described in detail with reference to the accompanying drawings. Therefore, the same or corresponding components will be assigned the same drawing numbers, and redundant description thereof will be omitted.

In addition, terms such as first and second used hereinafter are only identification symbols for distinguishing the same or corresponding components, and the same or corresponding components are limited by terms such as first and second. no.

In addition, the term "combination" means not only a case in which a physical contact is directly made between each component in a contact relationship between each component, but other components are interposed between each component, so that the components are in different components. It should be used as a comprehensive concept until each contact is made.

The present invention relates to the dismantling of a bio-shield concrete structure used in nuclear power plants. In particular, the present invention relates to a decontamination frame that performs a decontamination operation by cutting the surface of a bio-shield concrete structure.

Decontamination refers to the removal of substances contaminated with radioactive elements.

The bio-shield concrete structure used in a nuclear power plant is a structure that primarily closes the diffusion of radioactive materials in a nuclear reactor, and is generally formed in a recessed shape in the interior space 5 where the nuclear reactor is located.

The inner space 5 has a structure in which the upper part is opened, and an inner space 5 recessed in a multi-stage structure may be formed (FIG. 10).

Since the inner circumferential surface 1 of the bio-shield concrete structure is directly exposed to radioactivity and exposed, it is required to cut and discard to a certain depth in order to dismantle the nuclear power plant.

To this end, the decontamination frame according to the present invention is installed in a bio-shield concrete structure to perform cutting on the concrete surface.

The debris or dust of the cut concrete is collected by the dust collecting part 600 to be described later and disposed of.

The decontamination frame according to an embodiment of the present invention is formed along the inner peripheral surface (1) depth direction (a) of the bio-shielded concrete structure, and is equipped with a cutting unit (700) that performs a cutting operation on the inner peripheral surface (1). A guide rail that is formed along the main frame portion 2 of the vertical frame 100, the horizontal frame 200 coupled with the upper portion of the vertical frame 100, and the upper opening of the bio-shield concrete structure to guide the movement of the horizontal frame 200 300 (FIG. 1).

When the inner space 5 of the bio-shield concrete structure is recessed as a multi-stage structure as shown in FIG. 1, a plurality of guide rails 300 may be installed on the main surface portion 2 of the upper opening formed by the multi-stage structure Can be.

In this case, after performing the cutting operation on the inner circumferential surface of the inner space 5a located at the upper portion, the vertical plane 100 and the horizontal frame 200 for performing the cutting operation on the inner circumferential surface of the inner space 5b located at the lower side ) It is possible to continue the decontamination operation only by moving the coupling body by a moving means such as a crane.

In order to perform the cutting operation on the inner circumferential surface 1 while the decontamination frame is installed on the bio-shield concrete structure, it must be possible to adjust the position of the cutting unit 700.

To this end, the decontamination frame according to an embodiment of the present invention includes a horizontal moving part 410 and a cutting part 700 that adjust the distance between the vertical frame 100 and the inner circumferential surface 1 along the depth direction (a). It may include a vertical moving portion 420 to move up and down and a guide rail moving portion 430 to move the horizontal frame 200 along the guide rail 300 (Fig. 2, Fig. 3, Fig. 4).

It is possible to adjust the distance between the cutting portion 700 installed on the vertical frame 100 and the inner circumferential surface 1 using the horizontal moving portion 410, and using the vertical moving portion 420 to cut the cutting portion 700. It is possible to move in the vertical direction.

In addition, it is possible to move the cutting part 700 along the circumferential direction of the inner peripheral surface 1 using the guide rail moving part 430.

In addition, the cutting unit 700 is a rotary drum 720 equipped with a cutter 721, a driving shaft 730 providing rotational force to the rotating drum 720, and a housing in which the rotating drum 720 and the driving shaft 730 are accommodated. 710 may be included (FIG. 11).

In this case, the housing 710 may include an inlet 740 through which fragments of the bio-shield structure cut by the cutter 721 are introduced, and an outlet 750 through which fragments introduced through the inlet 740 are discharged to the outside. have.

The dust collecting part 600 to be described later is connected to the discharge port 750 through a connecting member such as a hose to collect debris.

The horizontal moving part 410 may include a horizontal moving motor 411 moving the horizontal frame 200 forward or backward (FIG. 2).

In addition, the horizontal moving part 410 is coupled to the first plate 412 and the horizontal moving motor 411 coupled to the second guide rail 330 and the second plate 413 coupled to the horizontal frame 200. It can contain.

In this case, the first plate 412 and the second plate 413 are formed in a sliding driving structure, and the vertical frame 100 combined with the horizontal frame 200 according to the sliding driving of the second plate 413 is formed. It is possible to change the position relative to the inner peripheral surface 1. This means that it is possible to adjust the distance between the cutting part 700 and the inner peripheral surface 1.

The guide rail 300 is on both sides around the first guide rail 320 and the first guide rail 320 coupled with the guide moving motor 310 that moves the horizontal frame 200 along the main surface portion 2. Formed and may include a second guide rail 330 to limit the movement of the horizontal frame 200.

A locking jaw 321 is formed on the first guide rail 320 to move the horizontal frame 200 according to rotational driving of the guide moving motor 310.

The decontamination frame according to an embodiment of the present invention is formed at the bottom of the vertical frame 100 and may further include a moving wheel 500 in contact with the bottom 3 of the bio-shield concrete structure (FIG. 7 ).

Accordingly, when the vertical frame 100 moves along the main surface direction b of the inner circumferential surface 1, it is possible to secure ease of movement and safety.

The decontamination frame according to an embodiment of the present invention is mounted on the vertical frame 100, and may further include a dust collecting part 600 for collecting fragments of the bio-shield concrete structure cut by the cutting part 700 ( Fig. 4).

Hereinafter, a method for decontaminating bio-shield concrete using a decontamination frame according to an embodiment of the present invention will be described.

The decontamination method according to the present invention includes the first step (S100) of forming the guide rail 300 on the main surface portion 2 of the bio-shield concrete, and the second step of combining the horizontal frame 200 with the guide rail 300 ( S200), including a third step (S300) of moving the cutting part 700 using the vertical moving part 420 and cutting the inner peripheral surface 1 of the bio-shield concrete structure using the cutting part 700 can do.

In this case, after the third step (S300), further comprising a fourth step (S400) for moving the position of the horizontal frame 200 using the guide rail moving part 430, after the fourth step (S400) The third step (S300) is repeated to perform a cutting operation.

If the inner space 5 of the bio-shield concrete structure is recessed into a multi-stage structure, the first step S100 includes the guide rail 300 on the plurality of main surfaces 2 of the multi-stage bio-shield concrete. It may include the step of installing.

In this case, after performing a cutting operation on the inner circumferential surface of the inner space 5a located at the upper portion, a vertical plane 100 and a horizontal frame 200 for performing the cutting operation on the inner circumferential surface of the inner space 5b located at the lower side ) It is possible to continue the decontamination operation only by moving the coupling body by a moving means such as a crane.

The above is merely a description of some of the preferred embodiments that can be implemented by the present invention, so, as is well known, the scope of the present invention should not be construed as being limited to the above embodiments, and the present invention described above. It will be said that both the technical idea and the technical idea together with the fundamental are included in the scope of the present invention.

100: vertical frame
200: horizontal frame
300: guide rail
400: moving part
500: moving wheel
600: dust collecting part
700: cutting part

Claims (13)

In the frame for decontamination to perform the decontamination work on the inner circumferential surface (1) of the bio-shield concrete structure with an open top,
A vertical frame (100) formed along the depth direction (a) of the inner circumferential surface (1) and mounted with a cutting part (700) for cutting the inner circumferential surface (1);
A horizontal frame 200 combined with the upper portion of the vertical frame 100; And
Included in the guide rail 300 is formed along the main surface portion 2 of the upper opening of the bio-shield concrete structure to guide the movement of the horizontal frame 200;
The cutting part 700,
A rotary drum 720 equipped with a cutter 721;
A driving shaft 730 providing rotational force to the rotating drum 720; And
The housing 710 is housed in the rotating drum 720 and the drive shaft 730; includes,
The housing 710 is
An inlet 740 into which fragments of the bio-shield concrete structure cut by the cutter 721 are introduced; And
A decontamination frame comprising a; discharge port 750 through which the debris introduced through the inlet 740 is discharged to the outside.
delete According to claim 1,
It is connected to the outlet 750, the dust collecting part 600 for collecting the debris;
Frame for decontamination, further comprising.
According to claim 3,
A horizontal moving part 410 for adjusting the distance between the vertical frame 100 and the inner peripheral surface 1;
Decontamination frame, characterized in that it further comprises.
The method of claim 4,
A vertical moving part 420 moving the cutting part 700 vertically along the depth direction a;
Decontamination frame, characterized in that it further comprises.
The method of claim 5,
A guide rail moving part 430 for moving the horizontal frame 200 along the guide rail 300;
Decontamination frame, characterized in that it further comprises.
The method of claim 6,
The horizontal moving part 410,
A horizontal movement motor 411 moving the horizontal frame 200 forward or backward;
Decontamination frame, characterized in that it comprises.
The method of claim 7,
The guide rail 300 is
A first guide rail 320 coupled with a guide moving motor 310 that moves the horizontal frame 200 along the main surface portion 2; And
A second guide rail 330 formed on both sides of the first guide rail 320 and limiting the movement of the horizontal frame 200;
Decontamination frame, characterized in that it comprises.
The method of claim 8,
The horizontal moving part 410
A first plate 412 coupled with the second guide rail 330; And
Included in combination with the horizontal movement motor 411 and the second plate 413 coupled to the horizontal frame 200;
The first plate 412 and the second plate 413 is a frame for decontamination characterized in that the sliding drive.
The method of claim 9,
It is formed on the bottom of the vertical frame 100, the mobile wheel 500 in contact with the bottom (3) of the bio-shield concrete structure;
Decontamination frame, characterized in that it further comprises.
In the decontamination method of the bio-shield concrete using the decontamination frame of claim 10,
A first step of forming the guide rail 300 on the main surface portion 2 of the bio-shield concrete (S100);
A second step of coupling the horizontal frame 200 to the guide rail 300 (S200);
A third step of moving the cutting part 700 using the vertical moving part 420 and cutting the inner circumferential surface 1 of the bio-shield concrete structure using the cutting part 700 (S300); To
Decontamination method of bio-shield concrete using a decontamination frame, characterized in that it comprises.
The method of claim 11,
After the third step (S300),
Further comprising; a fourth step of moving the position of the horizontal frame 200 using the guide rail moving part 430 (S400);
Method for decontamination of bio-shield concrete using a decontamination frame, characterized in that the third step (S300) is repeated after the fourth step (S400).
The method of claim 12,
The bio-shield concrete structure is recessed in a multi-stage structure,
The first step (S100),
The step of installing the guide rail 300 to the plurality of the main surface portion (2) of the multi-stage structure of the bio-shield concrete;
Decontamination method of bio-shield concrete using a decontamination frame, characterized in that it comprises.

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